package vmess import ( "crypto/cipher" "encoding/binary" "errors" "io" "github.com/Dreamacro/clash/common/pool" ) type aeadWriter struct { io.Writer cipher.AEAD nonce [32]byte count uint16 iv []byte } func newAEADWriter(w io.Writer, aead cipher.AEAD, iv []byte) *aeadWriter { return &aeadWriter{Writer: w, AEAD: aead, iv: iv} } func (w *aeadWriter) Write(b []byte) (n int, err error) { buf := pool.BufPool.Get().([]byte) defer pool.BufPool.Put(buf[:cap(buf)]) length := len(b) for { if length == 0 { break } readLen := chunkSize - w.Overhead() if length < readLen { readLen = length } payloadBuf := buf[lenSize : lenSize+chunkSize-w.Overhead()] copy(payloadBuf, b[n:n+readLen]) binary.BigEndian.PutUint16(buf[:lenSize], uint16(readLen+w.Overhead())) binary.BigEndian.PutUint16(w.nonce[:2], w.count) copy(w.nonce[2:], w.iv[2:12]) w.Seal(payloadBuf[:0], w.nonce[:w.NonceSize()], payloadBuf[:readLen], nil) w.count++ _, err = w.Writer.Write(buf[:lenSize+readLen+w.Overhead()]) if err != nil { break } n += readLen length -= readLen } return } type aeadReader struct { io.Reader cipher.AEAD nonce [32]byte buf []byte offset int iv []byte sizeBuf []byte count uint16 } func newAEADReader(r io.Reader, aead cipher.AEAD, iv []byte) *aeadReader { return &aeadReader{Reader: r, AEAD: aead, iv: iv, sizeBuf: make([]byte, lenSize)} } func (r *aeadReader) Read(b []byte) (int, error) { if r.buf != nil { n := copy(b, r.buf[r.offset:]) r.offset += n if r.offset == len(r.buf) { pool.BufPool.Put(r.buf[:cap(r.buf)]) r.buf = nil } return n, nil } _, err := io.ReadFull(r.Reader, r.sizeBuf) if err != nil { return 0, err } size := int(binary.BigEndian.Uint16(r.sizeBuf)) if size > maxSize { return 0, errors.New("Buffer is larger than standard") } buf := pool.BufPool.Get().([]byte) _, err = io.ReadFull(r.Reader, buf[:size]) if err != nil { pool.BufPool.Put(buf[:cap(buf)]) return 0, err } binary.BigEndian.PutUint16(r.nonce[:2], r.count) copy(r.nonce[2:], r.iv[2:12]) _, err = r.Open(buf[:0], r.nonce[:r.NonceSize()], buf[:size], nil) r.count++ if err != nil { return 0, err } realLen := size - r.Overhead() n := copy(b, buf[:realLen]) if len(b) >= realLen { pool.BufPool.Put(buf[:cap(buf)]) return n, nil } r.offset = n r.buf = buf[:realLen] return n, nil }